# Finding theta and phi for spherical texture mapping

for a school project I need to find theta and phi for a spherical texture map. A lot of the actual OpenGL for texturing is already completed (comes with the starter code). The starter code provides the function and comments below. The code is what I have done so far (besides the initialization for x and z, which was given) :

``````Vec3f sphere::getTextureCoords(Vec3f eye, Vec3f dir)
{
// find the normal (getNormal)
Vec3f n = this->getNormal(eye, dir);

// use these to find spherical coordinates
Vec3f x(1, 0, 0);
Vec3f z(0, 0, 1);

// phi is the angle down from z
// theta is the angle from x curving toward y

// find phi using the normal and z
float phi = acos(n.Dot3(z));

// find the x-y projection of the normal
Vec3f proj(n.x(), n.y(), 0);

// find theta using the x-y projection and x
float theta = acos(proj.Dot3(x));

// if x-y projection is in quadrant 3 or 4, then theta = 2PI - theta
if (proj.y() < 0)
theta = TWOPI - theta;

Vec3f coords;
coords.set(theta / TWOPI, phi / PI, 0);
return coords;
}
``````

Following the "instructions" in the comments, this is what I came up with. The texture map does not work though (no errors, the coordinates are just wrong). It is possible that the `getNormal` function is not working correctly but I believe the problem lies in my lack of understanding for spherical coordinates. Please let me know what you believe to be the issue, thanks!

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Note the formulae in the Wikipedia article on Spherical-cartesian conversions, particularly their use of arctan and the note about atan2. –  outis Nov 14 '11 at 23:42

Since `proj` is not normalized, you get a wrong result for `theta`.